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Novel static random access memory (SRAM) storage unit preventing single particle from turning

An anti-single event and storage unit technology, which is applied in the field of new anti-single event flipping SRAM storage cells, can solve the problems of long flipping recovery time affecting the operating frequency, transistors can not be completely turned off, short flipping recovery time, etc., to achieve clock network Simple and reliable, reduce flip recovery time, reduce the effect of flip recovery time

Active Publication Date: 2012-10-10
XI AN JIAOTONG UNIV
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Problems solved by technology

WHIT published (S.Whitaker, J.Canaris and K.Liu, "SEU Hardened Memory Cells for a CCSDS Reed Solomon Encoder," IEEE Transactions on Nuclear Science, vol.38, No.6, pp.1471-1477, Dec. 1991.) The anti-single event flipping memory unit mentioned in has good single event flipping stability, but due to the potential degradation phenomenon, the transistor cannot be completely turned off, and the static power consumption is very large
LIU mentioned an improved type in (Liu M N; Whitaker S "Low power SEU immune CMOS memory circuits", IEE Transactions on Nuclear Science, Vol.39, no 6, pp.1679-1684, December.1992.) The anti-single event flip memory unit effectively reduces static power consumption, but the flip recovery time is relatively long and affects the operating frequency
HIT in (Velazco R; Bessot D, "Two CMOS memorycells suitable for the design of SEU-tolerant VLSI circuits", IEEE IEE Transactions on Nuclear Science, Vol.41, No.6, December.1994.) mentioned in the new anti- The single event flip memory unit is characterized by superior performance, but with a large clock load
Mentioned in ZHANG (Guohe Zhang, Jun Shao, Feng Liang and Dongxuan Bao, "A novel single event upset hardened CMOS SRAM cell," IEICE Electronics Express, Vol.9, No, 3, 140-145, 2012.) Memory cell, which has the advantage of short flip recovery time, but longer write time

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  • Novel static random access memory (SRAM) storage unit preventing single particle from turning
  • Novel static random access memory (SRAM) storage unit preventing single particle from turning
  • Novel static random access memory (SRAM) storage unit preventing single particle from turning

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[0017] The present invention will be described in further detail below with reference to the accompanying drawings.

[0018] The circuit structure of the SRAM memory cell of the present invention is as follows figure 1 As shown (where CLK is the clock signal, and D and DB are the data input and output signals), it includes a first input and output port A1, a first potential inversion recovery drive circuit B1, a voltage hold circuit C, and a second potential inversion recovery drive in series in sequence Circuit B2, second input and output port A2; including: 8 NMOS tubes and 6 PMOS tubes. Among them, P, Pb, Q, Qb, N, Nb are the internal nodes of the SRAM memory cell. The connection method is as follows: the gate of the PMOS transistor P1 is connected to the node Pb, the drain is connected to the node P, the source and the substrate are connected to the power supply VDD; the gate of the POMS transistor P2 is connected to the ground, the drain is connected to the node Q, the s...

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Abstract

The invention discloses a novel static random access memory (SRAM) storage unit preventing a single particle from turning. The storage unit comprises a first input / output port, a first potential turning recovery driving circuit, a voltage retaining circuit, a second potential turning recovery driving circuit and a second input / output port which are connected in series with one another sequentially. An automatic recovery function for voltage turning when a sensitive node is impacted by a high-energy particle can be realized; according to a simulation result of a TSMC 0.18 mu_m process, a turning threshold value LETth is more than 500 MeV / (mg.cm<2>); compared with the conventional storage unit preventing the single particle from turning, the SRAM storage unit has the characteristic of high writing speed; the recovery time can be effectively shortened; by adopting a unidirectional clock and a small-clock amplitude, a clock network is relatively simple and relatively high in reliability; the clock is only connected with the gate of a read-write transistor, and the clock load is relatively small; and the sensitive node can be used for reinforcing multi-node turning of the single particle, which is caused by drains positioned on a P-type tube and an N-type tube..

Description

Technical field: [0001] The invention belongs to the technical field of integrated circuits, and in particular relates to a novel SRAM memory cell with anti-single event inversion. Background technique: [0002] The critical dimension of integrated circuits is decreasing with the continuous development of process technology, so that the critical charge of the junction also decreases, so the soft errors caused by the single event effect will be more significant. In order to ensure the reliability of the spacecraft in the space radiation environment, it is necessary to take anti-radiation hardening measures for the integrated circuits. High-performance memory cells have the characteristics of large critical charge, fast read and write speed, short flip recovery time and low power consumption. Published by WHIT (S. Whitaker, J. Canaris and K. Liu, "SEU HardenedMemory Cells for a CCSDS Reed Solomon Encoder," IEEE Transactions on Nuclear Science, vol. 38, No. 6, pp. 1471-1477, D...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G11C11/413
Inventor 张国和姚思远李剑雄赵晨顾亦熹
Owner XI AN JIAOTONG UNIV
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